A phase-detect synchronous mirror delay for clock skew-compensation circuits

A new phase-detect synchronous mirror delay (PSMD) circuit is proposed. The PSMD circuit not only can be operated in the narrow pulse clock signal but also can accept the 50% duty-cycle clocks. The conventional SMD can be locked in 2 clock cycle time, but it just can accept only the narrow pulse clock signal. In this proposed PSMD, we have developed a new mirror delay circuit (MCC) which is composed of a phase detector (PD). Such a new MCC can provide the proposed PSMD to operate in not only the narrow pulse clock signal, but also 50% duty-cycle clocks, and locked in 2 clock cycle time. The HSPICE simulation results are based on TSMC 0.18 μm 1P6M N-well CMOS process. The simulation results show that the proposed PSMD can be operated from 200MHz to 400MHz and the static phase error is less than 58.7ps. When the input clock frequency is 200MHz and 400MHz, the power dissipation are 6.03mW and 9.87mW, respectively. In addition, the PSMD operation frequency range is dependent on the number of delay cells, input buffer and clock drive, the principle can be a template in designing the issue of frequency tuning range in SMD.